KR101248825B1 - Construction method of drain apparatus - Google Patents

Abstract

The present invention relates to a drainage construction method for improving the soft ground, and more specifically, to the data such as the depth of the cover layer, the depth of the improvement target layer obtained through the stratum analysis after the stratum analysis using the mandrel in the construction site According to the process equipment installed at the construction site, the drainage material is cut through the impermeable layer and the required construction length, and then the mandrel is used to penetrate into the soft ground. The present invention relates to a drainage construction method for improving the soft ground by maximizing the construction efficiency of drainage materials by continuously performing all operations such as processing and drainage construction at a construction site.
According to the present invention, by injecting the mandrel installed in the construction equipment into the soft ground to obtain the depth of the cover layer and the depth of the improvement target layer through the change of the mandrel penetration rate and the pressure over time of the hydraulic device to operate the mandrel Steps; Calculating the cutting length of the drainage material by the coating length and the total required construction length for forming the impermeable layer of the drainage material to be constructed using the depth of the cover layer and the depth of the improvement target layer; Processing the drainage material at a construction site corresponding to the coating length of the impermeable layer and the cutting length of the drainage material using a processing device; Binding an upper end of the processed drainage to a wire actuated by the winch to draw the upper end of the mandrel; Connecting a fixing fixture fixed to the mandrel after covering a predetermined length of protective vinyl on the bottom of the drainage drawn to the upper portion of the mandrel; The operation of the mandrel through the hydraulic system to inject the mandrel into the soft ground to complete the construction of the drainage; there is provided a drainage construction method for improving the soft ground, characterized in that it comprises a.

Description

Construction method of drain apparatus for improvement of soft ground

The present invention relates to a drainage construction method for improving the soft ground, and more specifically, to the data such as the depth of the cover layer, the depth of the improvement target layer obtained through the stratum analysis after the stratum analysis using the mandrel in the construction site In accordance with this, the drainage is cut and processed through the processing equipment installed at the construction site, and then the mandrel is used to penetrate into the soft ground to provide construction methods. The present invention relates to a drainage construction method for the improvement of soft ground to maximize the construction efficiency of drainage by performing the work continuously at the construction site.

In general, in order to improve the soft ground, drainage work of the gap water to drain and drain the gap water contained in the soft ground to the outside should be preceded. Individual vacuum consolidation methods are used to effectively perform this drainage work.

The individual vacuum consolidation method as described above is an improvement and development of the existing method of sucking and draining the pore water by the fill load, and is a method of sucking and draining the pore water by vacuum pressure by a vacuum pump without using the fill load.

Therefore, since the drainage work of the pore water is made quickly and smoothly, the uniform ground stability is possible and is most frequently used. In order to perform such an individual vacuum consolidation method, a plurality of drainage materials which suck out the gap water through vacuum pressure should be installed at a predetermined interval inside the soft ground.

The waste material for improving the soft ground is composed of a frame in which a plurality of drain passages are vertically divided, a nonwoven fabric provided on the outside of the framework, and an impermeable layer formed on the upper outer surface of the nonwoven fabric.

Therefore, the mat is installed in a lattice form on the upper part of the improvement target layer of the soft ground, and the high quality soils are laid by using small equipment on the mat, and then the drainage is constructed by mobilizing heavy equipment on the upper layer.

As described above, before the drainage material is installed on the soft ground, the strata analysis of the soft ground should be preceded. This fragile ground analysis is to obtain data on the depth of the cover layer, the depth of the improvement target layer.

This is because the cutting length of the drainage material and the coating length of the impermeable layer coated on the top of the drainage material are determined according to data such as the depth of the cover layer and the depth of the improvement target layer obtained in the analysis of the soft ground.

That is, if the cut length of the drainage material or the coating length of the impermeable layer does not match, and the impermeable layer of the drainage material does not penetrate to some depth of the lower cover layer improvement layer or is completely exposed outside the cover layer, the adsorbed pore water is not discharged to the outside and the cover layer is not discharged to the outside. It is absorbed by the air or through the cover layer to extract the air and surface water on the top of the cover layer, the vacuum pressure does not act on the drainage, it is impossible to suck out the gap water of the improvement target layer.

When the cutting length of the drainage material does not match, the lower end of the drainage material reaches the lower support layer where the groundwater is present. do.

Therefore, by analyzing the geological layer of the soft ground by drilling using heavy equipment at the construction site, data about the depth of the cover layer, the depth of the target layer for improvement, etc. are obtained.

Then, the cutting length of the drainage material and the coating length of the impermeable layer are calculated using the data obtained through the geological analysis in the production plant, and the processing equipment is cut in accordance with the calculated data. The forming work to be formed is performed.

Finally, after the processed wastewater is transported to the construction site in the production plant, the drainage is completed by injecting it into the soft ground using the construction equipment equipped with the mandrel.

However, in the conventional drainage construction method as described above, the geological analysis is carried out at the construction site, the processing of the drainage is carried out at the production plant equipped with the processing apparatus, and the construction of the drainage is performed at the construction site, so that the work is separated by place and continuous. No work was done.

In other words, after analyzing the stratum at the construction site and processing the drainage material at the production site, it is transported back to the construction site and inserted into the soft ground. Therefore, the air has to be long, and the drainage is processed and transported to the construction site. Therefore, the volume is also increased and not easy to transport, there was a problem that greatly reduces the drainage construction efficiency.

Therefore, the present invention is to provide a solution to the above-mentioned conventional problems, the soft ground to improve the construction efficiency of the drainage material by immediately after construction immediately after the drainage material from the construction site through the data obtained through the geological analysis The purpose is to provide a drainage construction method for improvement.

The present invention has been invented to solve the above problems, the cover layer through the mandrel installed in the construction equipment into the soft ground to change the penetration rate of the mandrel and the pressure over time of the hydraulic device to operate the mandrel Obtaining a depth of a depth and a depth of a layer to be improved; Using the depth of the cover layer and the depth of the improvement target layer, the cutting length and the drainage of the drainage material to be constructed are partially exposed in the upper part of the cover layer to connect to the drainage pipe or the horizontal drainage material, and the coating of the impermeable layer that can penetrate to the depth of the improvement target layer to a certain depth. Calculating a length; Using the construction equipment to process the drainage at the construction site corresponding to the cutting length of the drainage and the coating length of the impermeable layer; Binding an upper end of the processed drainage to a wire actuated by the winch to draw the upper end of the mandrel; Connecting a fixing fixture fixed to the mandrel after covering a predetermined length of protective vinyl on the bottom of the drainage drawn to the upper portion of the mandrel; It provides a drainage construction method for improving the soft ground, including; the step of completing the construction of the drainage by injecting the mandrel into the soft ground by operating the mandrel through the hydraulic device.

The present invention not only can continuously perform all operations such as strata analysis of soft ground, processing of drainage materials, and construction of drainage materials at the construction site, but also prevents wastewater from being blown and entangled during drainage construction work. Increased ease of use has the effect of increasing the construction efficiency of the drainage and shortening the drainage construction period.

1 is a perspective view and a partially enlarged perspective view showing a drain.
2 is an exemplary view showing a construction process of the present invention.
Figure 3 is a construction state of the drain material according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is to penetrate into the soft ground in order to draw out the gap water to the outside when using the individual vacuum consolidation method to improve the soft ground, as shown in Figure 1, the plurality of drainage passages 10 are vertically divided frame 20 And a non-woven fabric 30 installed on the outside of the frame 20 and an impermeable layer 40 formed on the upper outer surface of the non-woven fabric 30, the drainage material 100 for improving the soft ground.

In particular, the drainage construction method for improving the soft ground of the present invention by maximizing the construction efficiency of the drainage 100 by processing with the construction equipment (I) after processing the drainage material 100 in a roll form in the construction site It is a big feature.

That is, unlike the conventional drainage construction method in which the production plant completes the manufacturing process of the drainage 100 and then transports it to the construction site and injects it into the soft ground, the processing and construction work of the drainage 100 at the construction site. By carrying out continuously, the convenience of construction is improved and the air is shortened.

This is based on the depth of the cover layer (A) and the distance of the improvement target layer (B) through the pressure change of the hydraulic device (H) that injects the mandrel (M) into the soft ground to operate the mandrel (M) at the construction site. Acquire the data, and using the obtained data, the cut length of the drain material 100 and the drain material 100 are partially exposed on the cover layer A to connect to the drain pipe or the horizontal drain material, and to the improvement target layer B. It calculates the data such as the coating length of the impermeable layer 40 that can penetrate to a certain depth, and processes the drainage material 100 with a processing device (P) provided in the construction site in accordance with the calculated data, and the processed drainage material ( 100) is achieved by injecting the construction equipment (I) into the soft ground to complete the construction.

Therefore, after processing the drainage material 100 wound in a roll shape by using the processing device (P) provided in the construction site can be completed by injecting into the soft ground immediately.

Accordingly, after acquiring and calculating data for determining the cutting length of the drain material 100 and the coating length of the impermeable layer 40 at the construction site, the drain material 100 is processed in the production plant using the data and then again. By carrying the construction to the construction site by the drainage 100, the convenience of construction is lowered and the conventional problem of extending the air is completely solved.

When explaining the drainage construction method of the present invention having the characteristics as described above in more detail in each step as follows.

First, prior to the construction of the drainage 100, the surface of the soft ground must be preceded to sufficiently withstand the load applied from the construction equipment I so that the heavy construction equipment I can safely move.

That is, the mat (D) is installed in a lattice form on the upper part of the improvement target layer (B) of the soft ground, and a high-quality soil is disposed on the mat (D) to form a cover layer (A). Then, even if a large number of pore water in the improvement target layer (B) of the soft ground stabilized by the mat (D) and the cover layer (A) can prevent the settlement phenomenon by the load of the construction equipment (I).

As described above, after the surface treatment of the soft ground is carried out, the geological analysis of the soft ground is performed. This is to determine the depth of the cover layer (A) and the depth of the improvement target layer (B), which are data for determining the cutting length of the drainage material 100 and the coating length of the impermeable layer 40.

This stratum analysis is performed simply by injecting the mandrel (M) installed in the construction equipment (I) into the soft ground and drawing it out. The mandrel (M) is introduced into the soft ground. It is simply analyzed through the pressure change of the hydraulic device (H) that activates.

That is, when the mandrel (M) is introduced into the cover layer (A), the pressure of the hydraulic device (H) is kept constant, while passing through the cover layer (A) and the mat (D) into the improvement target layer (B) The pressure of the hydraulic device (H) is lowered. At the moment when the mandrel M tries to penetrate the lower support layer C through the improvement target layer B, the operating pressure of the hydraulic device H is increased higher than the pressure when the mandrel M is introduced into the cover layer A. .

Therefore, after detecting the pressure change of the hydraulic device (H) over time by the sensing unit connected to the hydraulic device (H) and transmits the detection signal to the calculation unit connected to the sensing unit. Then, the calculating unit calculates data in the depth of the cover layer (A) and the depth of the improvement target layer (B) by using the detection signal of the detector and the penetration speed of the mandrel (M).

Then, the calculation unit transmits the data to the control unit connected to the calculation unit, and the control unit determines the cutting length of the drainage material 100 and the coating length of the impermeable layer 40 in accordance with the data of the calculation unit.

At this time, the cutting length of the drainage material 100 should be longer than the depth of the combined cover layer (A) and the improvement target layer (B).

This is the upper end of the drainage 100 is exposed to a certain length to the outside of the cover layer (A) in order to connect to the drainage pipe or horizontal drainage, etc., the bottom of the drainage 100 is the groundwater existing in the lower support layer (C) drainage 100 In order to prevent the end of the gap that is present in the soft ground while being sucked into the poor ground, the depth is lower than the depth of the lower support layer (C) of the improvement target layer (B), the mandrel (M) and the bottom of the drainage material 100 It cuts in consideration of the length (about 0.5m) is installed fixing unit (S).

And the coating length of the impermeable layer 40 is the cover layer (A) upper exposure length (about 0.5m) and the impermeable layer (10) for connecting the drainage material 100 formed with the impermeable layer 40 to a drainage pipe or a horizontal drainage material ( The length longer than the depth of the cover layer A must be considered together so that 40 (40) passes through the cover layer A and penetrates a part (about 1.0 m) into the layer to be improved.

This means that if the impermeable layer 40 of the drainage material 100 does not penetrate into the cover layer A under the improvement target layer B, the vacuum pressure does not function properly as the improvement target layer B, and the gap water extracted is covered with the cover layer A. This is because it flows out into the improvement target layer (B).

When the data on the cutting length of the drainage material 100 and the coating length of the impermeable layer 40 is determined as described above, the control unit transmits the data to the processing device P provided at the construction site.

Then, the processing apparatus (P) has a top cover length (about 0.5 m) of the cover layer (A) and an impermeable layer (40) passing through the cover layer (A) to connect the roll-shaped drain material 100 to the drain pipe or horizontal drain material. To form the impermeable layer 40 at the top with a coating length in consideration of the length required for penetration of the object to be improved (about 1.0 m), and then install the length of the impermeable layer 40, the depth of the object to be improved (B) and the anchorage (S). The process which cut | disconnects at the cutting length which considered length etc. is performed.

Then, the drainage 100 processed as shown in FIG. 2 is installed inside the mandrel M, and is bound to the wire R which is lifted up and down inside the mandrel M by the winch W and then the winch ( Activate W) to draw up to a certain height at the top of the mandrel (M).

At this time, binding the drainage 100 to the wire (W) to draw through the inside of the mandrel (M) from the bottom to a certain height of the upper end to prevent the drainage 100 is tangled in the wind.

And after covering the protective vinyl 50 to the lower end of the drainage material 100 drawn up to a certain height and fixed to the anchorage (S) fixed to the mandrel (M). Then, by operating the hydraulic device (H) of the construction equipment (I) by injecting the mandrel (M) into the soft ground, the construction of the drainage 100 is completed as shown in FIG.

In this case, the protective vinyl 50 is applied to the lower end of the drainage material 100 even if the cutting length or the construction depth of the drainage material 100 does not match the actual strata, so that the lower support layer C reaches the lower support layer C. This is to block the inflow of groundwater or air present in (C) to facilitate the outflow of gap water.

At this time, the geological analysis of the soft ground is not performed every time one construction of the drainage 100. This is because the distribution of strata in soft ground is not changed drastically, so the amount of change is not large or constant.

In other words, the entire soft ground may be divided into a plurality of zones, and then the geological analysis of the soft ground may be performed once for each divided zone. Then, through the mandrel (M) can be continuously performed to inject the drain material 100 into the soft ground.

As described above, the present invention processes the drainage material 100 with the processing device P at the construction site and immediately penetrates into the soft ground with the mandrel M to complete the construction, thereby improving the workability of the drainage material 100 and draining the water. It is possible to further increase the construction efficiency of the 100 and to significantly shorten the air.

10: drainage channel 20: frame
30: nonwoven fabric 40: impermeable layer
50: protective vinyl 100: drainage
A: cover layer B: improvement target layer C: lower support layer D: mat
P: Processing Equipment I: Construction Equipment
H: Hydraulic M: Mandrel
W: winch R: wire
S: anchorage

Claims (1)

Penetrating the mandrel (M) installed in the construction equipment (I) into the soft ground through the change of the penetration rate of the mandrel (M) and the pressure of the hydraulic device (H) to operate the mandrel (M) over time Obtaining a depth of (A) and a depth of the improvement target layer (B); For the penetration of the cover layer (A) upper exposure length, the depth of the cover layer (A), and the cover layer (A) to a certain depth of the improvement target layer (B) for connecting the drain material 100 to the drain pipe or horizontal drain material Calculating the coating length of the impermeable layer 40 as the sum of the required lengths; Calculating a cutting length of the drainage material 100 in consideration of the length of the impermeable layer 40, the depth of the improvement target layer B, and the installation length of the fixing unit S; The impermeable layer 40 is formed as a coating on the uncoated drainage material 100 wound in the form of a roll using the processing device P as long as the coating length of the impermeable layer 40 calculated in the above step. Cutting by processing the cutting length including the transmission layer 40 calculated in the above step; Binding the upper end of the processed drainage 100 to the wire R operated by the winch W to draw the upper portion of the mandrel M; Attaching a fixing device S fixed to the mandrel M by covering a predetermined length of the protective vinyl 50 at a lower end of the drain material 100 drawn to the upper part of the mandrel M; The operation of the mandrel (M) through the hydraulic device (H) to inject the mandrel (M) into the soft ground to complete the construction of the drainage 100; the soft ground improvement characterized in that it comprises a Drainage construction method.

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